Intermediate
Volatility Organic Compound Emissions
from On-Road Diesel Vehicles: Chemical Composition, Emission Factors,
and Estimated Secondary Organic Aerosol Production
posted on 2015-10-06, 00:00authored byYunliang Zhao, Ngoc T. Nguyen, Albert
A. Presto, Christopher
J. Hennigan, Andrew
A. May, Allen L. Robinson
Emissions of intermediate-volatility
organic compounds (IVOCs)
from five on-road diesel vehicles and one off-road diesel engine were
characterized during dynamometer testing. The testing evaluated the
effects of driving cycles, fuel composition and exhaust aftertreatment
devices. On average, more than 90% of the IVOC emissions were not
identified on a molecular basis, instead appearing as an unresolved
complex mixture (UCM) during gas-chromatography mass-spectrometry
analysis. Fuel-based emissions factors (EFs) of total IVOCs (speciated
+ unspeciated) depend strongly on aftertreatment technology and driving
cycle. Total-IVOC emissions from vehicles equipped with catalyzed
diesel particulate filters (DPF) are substantially lower (factor of
7 to 28, depending on driving cycle) than from vehicles without any
exhaust aftertreatment. Total-IVOC emissions from creep and idle operations
are substantially higher than emissions from high-speed operations.
Although the magnitude of the total-IVOC emissions can vary widely,
there is little variation in the IVOC composition across the set of
tests. The new emissions data are combined with published yield data
to investigate secondary organic aerosol (SOA) formation. SOA production
from unspeciated IVOCs is estimated using surrogate compounds, which
are assigned based on gas-chromatograph retention time and mass spectral
signature of the IVOC UCM. IVOCs contribute the vast majority of the
SOA formed from exhaust from on-road diesel vehicles. The estimated
SOA production is greater than predictions by previous studies and
substantially higher than primary organic aerosol. Catalyzed DPFs
substantially reduce SOA formation potential of diesel exhaust, except
at low speed operations.